堆载预压处理滨海软基三维数值分析

摘要：塑料排水板在处理软土地基中已广泛应用.针对塑料排水板地基目前主要分析方法是将其转化为平面应变有限元,然而计算的孔隙水压力和水平位移结果不理想.基于ABAQUS排水板单元建立较大规模的三维有限元模型,结合某塑料排水板堆载预压处理软基工实例模拟分析.计算所得的软基的沉降曲线、孔压曲线与现场测量值比较吻合,证实了模型中三维排水板单元的可靠性.通过改变施加填土的时间以及堆载预压的时间,对比观察软土地基超孔隙水压力和地表沉降的变化规律,确定最佳的施工方案.为以后堆载预压处理软土地基的设计与施工提供指导和参考....

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Bibliographic Details
Published in	东北大学学报（自然科学版） Vol. 38; no. 12; pp. 1780 - 1784
Main Author	张国联;邹海文;王玉奇;赵显涛
Format	Journal Article
Language	Chinese
Published	中冶沈勘工程技术有限公司,辽宁沈阳 110169%中冶沈勘工程技术有限公司,辽宁沈阳,110169 2017 东北大学资源与土木工程学院,辽宁沈阳,110819%东北大学资源与土木工程学院,辽宁沈阳 110819
Subjects	ABAQUS 堆载预压塑料排水板数值分析砂井地基 plastic drainage plate 砂井地基 ABAQUS sand well foundation 数值分析 numerical analysis 塑料排水板 surcharge preloading 堆载预压
Online Access	Get full text
ISSN	1005-3026
DOI	10.12068/j.issn.1005-3026.2017.12.023

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Summary:	摘要：塑料排水板在处理软土地基中已广泛应用.针对塑料排水板地基目前主要分析方法是将其转化为平面应变有限元,然而计算的孔隙水压力和水平位移结果不理想.基于ABAQUS排水板单元建立较大规模的三维有限元模型,结合某塑料排水板堆载预压处理软基工实例模拟分析.计算所得的软基的沉降曲线、孔压曲线与现场测量值比较吻合,证实了模型中三维排水板单元的可靠性.通过改变施加填土的时间以及堆载预压的时间,对比观察软土地基超孔隙水压力和地表沉降的变化规律,确定最佳的施工方案.为以后堆载预压处理软土地基的设计与施工提供指导和参考.
Bibliography:	ABAQUS; plastic drainage plate; sand well foundation; surcharge preloading; numerical analysis 21-1344/T Plastic drainage plate has been used widely to treat soft soil foundation. N ow,the popular analysis method for plastic drainage plate foundation is plane strain finite element method. However,the pore water pressure and horizontal displacement results are unsatisfactory. In this paper,a large scale 3D finite element model is established to simulate the soft soil foundation using ABAQUS,combined with an engineering example of reinforcing soft-soil foundation by preloading with plastic drainage plate. The calculated settlement curve and pore pressure curve of soft soil foundation agree with the field measurements, confirming the reliability of 3D PVD element. By changing the time of filling and the time o f preloading,observing the variation of excess pore water pressure and surface subsidence,the best construction scheme is determined. The research results can provide guidance and reference for the design an
ISSN:	1005-3026
DOI:	10.12068/j.issn.1005-3026.2017.12.023